diff --git a/backend/code1.c b/backend/code1.c index 506ade6d..b04823ae 100644 --- a/backend/code1.c +++ b/backend/code1.c @@ -1200,29 +1200,8 @@ int code_one(struct zint_symbol *symbol, unsigned char source[], int length) data_blocks = c1_blocks[size - 1]; - /* - Section 2.2.5.1 states: - "The polynomial arithmetic... is calculated using bit-wise modulo 2 arithmetic - and byte-wise modulo 100101101 arithmetic (this is a Galois Field of 2^8 with - 100101101 representing the field's prime modulus polynomial: - x^8 + x^5 + x^3 + x^2 + 1)." - This is the same as Data Matrix (ISO/IEC 16022) however the calculations in Appendix F - of the Code One specification do not agree with those in Annex E of ISO/IEC 16022. - For example Code One Appendix F states: - "The polynomial divisor for generating ten check characters for Version T-16 - and Version A is: - g(x)=x^10 + 136x^9 + 141x^8 + 113x^7 + 76x^6 + 218x^5 + 43x^4 + 85x^3 - + 182x^2 + 31x + 52." - Whereas ISO/IEC 16022 Annex E states: - "The polynomial divisor for generating 10 check characters is: - g(x)=x^10 + 61x^9 + 110x^8 + 255x^7 + 116x^6 + 248x^5 + 223x^4 + 166x^3 - + 185x^2 + 24x + 28." - For this code I have assumed that ISO/IEC 16022 is correct and the USS Code One - specifications are incorrect - */ - rs_init_gf(0x12d); - rs_init_code(c1_ecc_blocks[size - 1], 1); + rs_init_code(c1_ecc_blocks[size - 1], 0); for(i = 0; i < data_blocks; i++) { for(j = 0; j < c1_data_blocks[size - 1]; j++) {